Temperature controlling device



July 21, 1942. N. w. BARNES TEMPERATURE CONTROLLING DEVIC Filed June 27, 1939 km@ NQ gwoon to@ Patented July 21, '1942 r 7.

Nr OFFICE TEMPERATURE CONTROLLING DEVICE Norman W. Barnes, Knoxville, Tenn., assgnor to The Fulton ISylphon Company, Knoxville, Y, Tenn., a corporation of Delawarev Y y Application June 27,1939, Serial No. 281,489

ance with variations in temperature of the in- 9 Claims.

This invention relates to temperature controlling devices, and more particularly to meansv for controlling the supply of heating medium to heat interchanging means that imparts the de'- sired temperature to air employed for conditioning the interior of a room, building,lcompart ment, car, or other space whose temperature is to be controlled.

In the following description the invention will I be described as applied to controlling the temperature of air employed for heating the space in question, the invention being exemplied by the control of a Valve for regulating thel amount of steam that is supplied to a heating coil' over which the air is passed, and which may be conveniently located Vin an air duct of a suitable heating and Ventilating system, but as will be apparent to those skilledin the art, the invention is not restricted to this particular use, as other suitable uses for the temperature rcontrolling means of the present invention are contemplated. Y

As will be appreciated, tempering of the ncoming air to a minimum temperature that will avoid unpleasant drafts is highly desirable. On the other hand, when the space in question requires heat in order to maintain a predetermined minimum temperature, it is important that the incoming air be promptly raised to a fairly high' temperature so that there may not be an undue delay in restoring the space to the desired temperature; Furthermore, the amount of heat delivered to the air should vary with the temperature of the incoming air, particularly where the temperature of the incoming air reflects the heat loss due to the heat differential between the desired temperature within the space and the exterior thereof, both for the` minimum temperature that is maintained in the incoming air whenI that air is being merely tempered and for tne temperature that is given the air when additional heat is desired to raise or restore the temperature to the desired value.

It is an object of this invention to provide an improved temperature controlling device which automatically maintains the air enteringthe space to be heated at either a predetermined maximum or a predetermined minimum temperature, depending upon Whether or not the temperature of the space in question is below the desired temperature, and which at the same time automatically varies both the minimum and maximum temperatures referred to in accordcoming air. Y

Another object of this invention is to provide a device of the type characterized which employs a single element for effecting the control of the supply of heating medium, but which single element is itself under the control of the temperature of the air in the spaceto be heated and also theY temperatures of the air flowing to and away from the air heating unit.

Another object of this invention is `to provide a device of the type characterized which may be employed to lock the heating element out of operation under certain temperature conditions, as when'the space in 'question is to be maintained at a relatively low temperature, as when air coolim is employed. Y

Another object of this invention is to provide a device of the type characterized which may be readily adjusted to vary the maximum and minimum temperatures as aforesaid at which the air is to be delivered to the space in question.

Another object of this invention is to provide a device of the type characterized which is relatively simple and compact in structure, highly efficient in operation, strong and durable in service, and easily installed and manipulated.

Other objects will appear as the description of the invention proceeds.

The invention is capable of receiving a variety of mechanical expressions, one of which is illustrated on the accompanying drawing which illustrates somewhat diagrammatically, and partly in elevation and partly in section, an embodiment of the present invention as employed for controlling the flow of a heating medium, as steam, to a heating unit, as a steam heating coil, suitably disposed in an air duct leading to the space to be heated. It is to be expressly understood,

40 however, that the drawing is for purposes of illustration only,` and is not to be construed as a definition of the limits of the invention, reference A being had-to the appended claims for that pur.-

pose. y In the embodiment illustrated a valve casing l 1s shown as disposed in any suitable steam line to which it is connectedby couplings 2 and 3 and through which steam ows to say a steam heating coil disposed inthe air inlet duct of a suitable ventilating system. Valve casing I has interiorly thereof a partition 4 providing a valve seat 5 around the port 6 and with which cooperates a valve member 1 of any suitable construction suitably attached, as by the threaded stud 8 and lock screw 9, to the endrwall I 0 of an expansible and collapsible corrugated tubular element or bellows II. interposed between the valve member 1 and the end wall III is a cupshaped member I2, conveniently formed of sheet metal, which protects the end of the corrugated element II from the erosive action of the steam.

The opposite end of said corrugated element VI I vis suitably attached to an end wall I3 secured in position on the end of the tubular portion I4 of the housing I, so as to make a fluid-tight joint therewith.

End member I3 has a centrally arranged screwthreaded aperture I5 which receives a post or stem I6 that has an axial bore I1 that communicates through one or more apertures I6 with the interior of the corrugated element I I. End wall I0 has an inwardly directed and exteriorly threaded flange I9 on which is threadedly mounted a thimble 20 having its end wall centrally apertured at 2I to slide on the post I6. Attached to the end of said post I6 is a second thimble 22 adapted to slide Within the thimble 20. Interposed between the end walls of the two thimbles 20 and 22 is a coil spring 23 which, as4

will be apparent, normally urges the end wall I0 upwardly, as viewed in the drawing, so as to collapse corrugated element Il and open the valve 1. The' coaction of said two thimbles, together with the coaction of the outer thimble with the post I6, assures that the valve 1 will have rectilinear movement with respect to its seat 5.

Surrounding a central boss on the end member I3 is an annular element 24 which, together with said end member I3, is 'shown as secured in position by an annular nut 25 threaded onto the end of the tubular portion I4 of valve casing I. Attached to. said annular member 24, preferably by aplurality of screws 26, and spaced therefrom" by interposed sleeves 21 is the support 28 of an electrically heated bulb 29 which communicates through capillary tube 30 with the bore I1 of the post I6. The bulb 29 issurrounded or has suitably associated therewith a heating coil 3| provided with leads 32 which extend to any suitable electrical thermostat of the make-and-break contact type suchas may be conveniently installed on the wall of the space to be heated and which is here diagrammaticalls1 indicated by the rectangle 33. As shown, said bulb and its coil are mounted on an inner support 34 carried from the support 26 by suitable brackets 35, said support 34 in turn carrying a suitable bracket 36 for a clamp that secures the bulb and coil in position, and suitable attachments for the leads 32, etc.. are also provided, these interior details of construction forming no part of the present invention inasmuch as they may be of any suitable character. trically heated bulb and its support are preferablyenclosed in a cover 31 that may be secured in position by the screw 38. A

Also communicating with the bore I1 and post I6 is a capillary tube 39 leading to a bulb 40 which may be supported in any suitable way at the air inlet side of the heating coil referred to, as by means of a member 40 that may be attached exteriorly to the wall of the air duct, as by a plurality of b'olts 4I, said member 40' having an interiorly threaded ange 42 in which a thimble 43 is secured by the annular nut 44. Member 43 prevents the capillary tube 39 from being given a sharp bend where it passes through The elecof such size as to also enclose the sealed end of the filling tube 45.

Also communicating with the bore Il of the post I6 is a third capillary tube 46 which leads to the end chamber 48 of a bulb 49 which is of materially larger capacity than the bulb 40 and which, in order to give it compactness, is preferably formed as a coil, said bulb having a sealed filling tube indicated at 50. Bulb 48, 49 is attached to an end member 5I which may be mounted in any suitable way so as to project bulb 49 into the air duct at the outlet side of the heating coil, the structure illustrated including a supporting member 52 which may be attached to the exterior of the duct, as by a plurality of bolts 53, and which has an interiorly threaded ange 54 in which the member 5I is secured by a threaded nut or cover member 55.

The adjusting means for the system so far described is' preferably associated with the bulb 49, and to this end a fourth capillary tube 56 communicates with the chamber 48 at one end, and at its opposite end said tube communicates with an expansible and collapsible corrugated tubular element or bellows 51 having one end wall 58 xedly secured in position, as by a U- shaped bracket 59, and its opposite, or movable end wall 6I) in the form of a plate whose periphery is adapted toV engage in the interior threads of a sleeve 6I mounted on a block 62 and rotatable by means of a knob 63 on a spindle 64 to which 'block 62 and knob 63 are attached as by means of set screws. The adjusting mechanism so fary described is mounted by means of a threaded sleeve 65 on the exteriorly threaded end of member 5I, to which it is attached as by a set screw 66, said sleeve 65 having attached thereto the end plate 61 of a housing 68 to whose end wall 69 is attached the U-shaped bracket 59 and with-which may be associated any suitable indicated mechanism 10 to show the state of adjustment of the expansible and collapsible chamber 51-the details of the indicating mechanism forming no part of the present invention.

In order to provide that the bulb 49 and its adjusting mechanism may be disposed at varying distances from the valve casing I and'its associated electrically heated bulb, the capillary tube 46 is preferably made of such length as to provide for the most remote installation of the bulb 49, and to this end it is coiled as shownat 1I within the chamber 12 provided between the outer housing wall B8 and an inner concentrically arranged wall 13. When installed, so much of the capillary tube 46 is withdrawn from the coil 1I as is necessary to enable the bulb 49 to be disposed at the desired distance from the valve casing I. As the valve casing I will ordinarily be adlacentvthe inlet side of the steam coil and therefore adjacent the bulb 40, no similar provision is ordinarily necessary for the capillary tube 39 but it is apparent that if desired a similar con of capillary tubing could be provided at the bulb 40, as by enlarging the member 43 so as to constitute a housing therefor. l

The system composed of the adjusting chamber 51 with its'capillary tube 56, the bulbs 49, 40 and 29 with their capillary tubes 46, 39 and 30, respectively, and the bellows II, is charged with a vaporizable liquid which normally lls chamber 51 and said bulbs and at least part of said last named capillary tubes, the extent to which the liquid columns approach the ends of the latter capillary tubes being varied by maniputhe wall of the air duct, and as shown it is made lating the knob 63' to expand or contract the ductil'ity less importantf-theamount of ir'onfr'nayz.vv

be greater.

The grain refining elements`4 are; partieLil/arlyv desirable in an :aluminum alloy containing iron,

manganese, chromium andA the ternary com' Exdmplc 1 An aluminum base alloy containing about .6%

. iron, about .3% manganese, about .2%chromium,

pound. AlthoughA the iron itself irri'proves fthe"V properties of the alloy, the n'langanese,'chromi-l um and grain refining elements'exert'aStilffur L:

ther improvement independentlyoff'iron.

vThe aluminum" alloys of the` present inv'en tion containing magnesium,l uncombined'-witl* silicon, and zinc inthe proportionfof a`v ternary compound, `when castfin molds of a design such that chilling takes place substantially f' simultaneously in the various portionsA of.'l the casting,

'abQut..,2-%; titanium, about 1.2% silicon, and magnesiumin proportion tocombine'with the silicon and toform. 6% of-'thefternary compound AlaMgvZn's-- with the balance substantially alu`- andgminor impurities, was prepared and chill :castintotesttbars, quenched ,and aged seven days,` at room temperatur e. -When tested they show ed a -tensilefstrength of .43,3002 lbs./sq. in., an v.elongation of 1 0,3%, a yield; strength of 24,-

300- lbs./sq. in., a proportionalolimitof 18,100

solidify Without the use of grain refiningfuagent'sf to form good castings.

However, it has ylcienfound that certain grain "refining" elements ls"ub stantially improve the properties vofthe alumi' num' alloy containing the' ternaryr compound,

whether or not it contains one -o`r more of-theabove hardening 1 metals, with `or 'Without iron.

This is especially true when the metal's'cast in molds of 'moreor less intricate shape lWhere the chilling may notbe sok uniform'fthroughout thev casting. i i

The grain refiners which I'have found exert'.k

greatest improvement in the'properties offthe alloys are members of thevgroup, consisting 'ofi boron in the amount of .005"% to 51% -Vzirconium in the amount 'of .01% to .5%, tungsten in""tl'ley amount of .01% to .5%,` Vmolybdenum inqtheI amount of .0.1% 4to .5%, vanadiumjinitheamount of .01% to .5%, titanium in the amount of .05%-

to .5%, columbium in the amount of .01% to .5

and tantalum in the amount of .05% to 15%.?

Eamfle 2 i aluminumbasealloy containing, about 6% 'of the ternary compound, about .3% manganese,

abouty .25% chromium, about .21 silicon', y about .3% iron, and ,aboutV .3% Atungsten was chill cast in't'oI test bars, whichwere quenched and aged v Athree hours at 125 C. 7When tested, these bars These garain refining elements shouldiprcfer'ably v be Vpresent in a total amountA of from .005% to .5% and it is frequently desirable to have more than one of these elementswpresent in a' given .s

alloy.

While the grain 'refiners in *thev above groupare desirablein the alloys of the'fpresentinven f tion, not all of thegrain refiners aiv'e'ctf' the properties in the same ,way.1"The pamticularr re'ner'f or group'of renersselected in any `given instance depends upon the particular fonllition.'fvvhichmust ,bel satisfied?. The grain renlersf elected from the group consistin'g'of titaniumQtungsten, molybdenum, zirconiumand vanadium, andesthe strength'and; the elongationof the castings'.1w '.ita'nium' being readily' avaiiable is" frequently used, but when special propertiesfofithefabrie cated article areimportant` it is desirable tosel lect the grainrener that vis most `suitalolc i'or 5o pecially tungsten andmolybdenum,A imprcv'efboth such properties. The grain reners boron;` columbium and tantalum'may advantageouslybel used Where appearance,finishY 'and' corrosion re.

sistance arevimportant.' I" *Y w The above describedhardenfing elements, manganese and chromium,` substantially decrease the hot shortness, improve the 'properties of the 'all loy, ,and assist .in maintaining thefimproved properties" at high temperatures s'uclr asare "en-A f ountered in internal Ycorriy ustioren 'nes.""The"' c Y b *f :f y gation was 9.3%,A vthe proportionallimit was above grain rnin'g'jele" v l Y bers 0f .the group @dessine @fammi sten, molybdenum, vanadium: and titanium` have this proprrtypartic largerfamoiintajsuch asYLZZ,- or Y3 o '"1" 'tiff-"fore, be desirable to-have u 1f ff *l latter'elements present.l -5

il owing examples illustrate the: alloys of the present invention:

"fer

Ilarly whenzppresent 'was increased tok had .a tensilev strength -of 40,600 lbs./sq.'in., a yieldlstrength of 2A 5,00,llbs./Asq. in., a proportional limit.oi 16,500 lbs./sq.in.,`anajan elongationof 13.2%,gandgalhardness of. 76 Rockwell E. .Whenthe chill cast barsfwere quenched and aged vseven 'days at .room temperature, they had a tensile strength of. 13,300v lbs/sq. in... a yield strength-oi l26,500 1lbs-./sq. in., a proportional limit ol 161,400 lbs/sq. `in.an elongation of 13%,

and a harness of,-79 Rockwell When the grain renner is omltte the tensile strength andelongationare'iower and the castability/is decreased.

the alloyi days` at room temperature hada hardness,y loiA 74, an elongation; of4 5.7%, gggprop'or'tional limit of 16,500 lbs/sq. jin., a 4yield strength of V,24.900

' ibs./s.c`1.in, ...anni a i-tensile strength. of 38,800

1bs./s'q. in. Wh f the vperceniiage of vanadium elongation was 17,700 lbsJsii. n., 'and `t When the test bars were simply air cooled and aged seven days at room temperature, the elon- 18,2001bs`./sq:'in.,' thev yield strength was 25,800

lbs./sq. n'., and the-tensile strength was 40,600

lbs/sq. in. When the molybdenum was increased to .12% test bars which Werechill cast, quenched and-aged seven 'days' at room temperature had an elongation: of 124%, a proportional limit of 16,700 lbs.sq. in.'-;a`yield strength of 24,500 lbs./sq.

in., and a tensile strength of 41,400 lbs./sq. in.

l l ,ofrixaimlz' contained .031% f vanadium instead of.' tungsten, the test bars'A whichv weremhilhfcast', quenched 'and agcdvseye'nl he proportional limit. ywasy gldV strength was 25,500

alloy of `Example 2 the'` tungsten ,was :substituted;by.06% molybdenum, the elon- Aga'tion; of* the"A tes`t=`bars -iwhich were chill cast,

and 70 F. for a minimum temperature and 120 F. and 140? F. for a maximum temperature, depending upon the intermediate temperature at the bulb 40.

By manipulation of the expansible and collapsible chamber 51 the amount of liquid responsive to temperature variations can be changed and therefore the minimum and maximum temperatures can be correspondingly varied, but whatever the condition of adjustment at the chamber 51, the air leaving the heating coil at bulb 49 will be maintained at either a minimum or a maximum temperature depending upon whether the coil 3 I Yis or is not energized by reason of the condition of the room thermostat. While the positionof the valve member 1 will be modulated by the temperature at the bulb 49 to maintain predetermined minimum and maximum temperatures, depending upon the energization of the coil 3l, these minimum and maximum temperatures will be varied as the heat differential varies between the actual temperature at the bulb 40 andthe intended temperature at the bulb 49.

While certain temperatures have heretofore been assumed for purposes of illustration, it is to be expressly understood that the invention is not restricted thereto, as the volumes of the bulbs 29,

imum and maximum temperatures, depending` upon the temperature of the space to be heated, and also means for automatically varying both the minimum and maximum temperatures depending upon variations in the differential between the temperature of the air to be heated and the temperature which it is desired that the air' attain. It will further be noted that the aforesaid automatic control is effected by means of a single actuating element for the valve or other controlling means to be used, all of the several temperature responsive elements being directly connected therewith, whereby the complexities of a plurality ofinterrelated controls have been eliminated. At the same time, provision has been made for readily adjusting the instrument to predetermine what the minimum and maximum temperatures shall be, and the entire control is eiected by a device which is relatively simple and compact, easy to install and manipulate, and highly efficient as well as durable in operation.

While the illustrated embodiment h'as been described with particular reference to predetermining the temperature of air owing over a heating coil, as in a Ventilating system, other uses of the invention will now readily suggest themselves to those skilled in the art. For example, the thermostat 33 may be so constructed that the coil 3| is actuated only at a predetermined relatively low temperature, in which event the bulbs 4D and 49 may be used for controlling the inlet and outlet temperatures in a heating system and the coil 3l may be actuated from the thermostat 33 if an air cooling system goes into effect, so as to effect the closure of the valve 1 and thereby prevent under all normal conditions the valve 1 being actuated by either of the bulbs 40 and 49 to heat the air as long as the cooling system is in operation.

While the embodiment of the invention illusnism may be employed for controlling the ilow of heating medium, or oth'er than valves may be used for regulating the heat exchanger. Similarly, other forms of bulbs, adjusting.means, etc., may be employed and if desired the adjusting means may be entirely omitted. Changes may be made in the detailsl of construction, arrangement and proportion of parts, and certain features may be used without other features, Without departing from the spirit of this invention. Reference is therefore to be had to the appended claims for a definition of said invention,

What is claimed is:

1. A device for automatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum or a predetermined minimum temperature comprising a heat exchanger for supplying heat to the medium, controlling means for said heat exchanger, an expansible and contractible motor chamber operatively connected to said controlling means and subjected to heat at said exchanger for vaporizing a vaporizable liquid, means under the control of the temperature in said enclosure and operative only to inject into or withdraw from said motor chamber a predetermined quantity of vaporizable liquid to automatically determine whether said motor chamber shall be in only trated on the drawing has been described with the one or the other of its two conditions corresponding to the maintenance of maximum or minimum temperatures, and means subjected to the heat of the medium flowing from said heat exchanger for additionally injecting or withdrawing vaporizable liquid into or from said motor chamber for modulating the condition of said motor chamber and the position of said controlling. means at either the maximum or the minimum condition of said motor chamber to automatically predetermine the temperature being maintained thereby.

2. A device for automatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum or a predetermined minimum temperature comprising a heat exchanger for supplying heat to the medium, controlling means for said heat exchanger, an expansible and contractible motor chamber operatively connected to said controlling means and subjected to heat at said exchanger for vaporizing a vaporizable liquid, means under th e control of the temperature in said enclosure and operative only to inject into or withdraw from said motor chamber-sa predetermined quantity of vaporizable liquid to automatically determine whether said motor chamber shall be in only the one or the other of its two conditions corresponding to the maintenance of maximum or minimum temperatures, means subjected to the heat of the medium flowing from said heat exchanger for additionally injecting or withdrawing vaporizable liquid into or from said motor chamber for modulating the condition of said motor chamber and the position of said controlling means at either the maximum or the minimum condition of said motor chamber to automatically predetermine the temperature being maintained thereby, and means subjected to the temperature of the medium approaching said heat exchanger for automatically varying the maximum and minimum temperatures maintained by said last named means.

3. A device for automatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum or a predetermined minimum temperature comprising a heat exchanger for supplying heat to the medium,

controlling means "fon-said' heatexchanger;l an expansible and contractiblefmotor chamber operatively?connectedfto said controlling means and I subjected' vv'to "heatf'at saidy exch-angerfor 'vaporizing av'a'po'rizable liquid, fmeans under `'the l controlio'f the-temperaturel in said enclosureand operative' .onlyto inject; into or withdrawf from,

-said motoi` chamber a predetermined fquantity of vaporizable liquid"to:automaticallyr determine whether said motor chamber shall be inonly'the one or the other of its two A'conditions corresponding to the maintenance of maximum or minimum temperatureameans subjected to the heat of the medium flowing from s'aidfheat-exchangerifor additionally injecting or withdrawing `vaporizable liquid into or from said motorchamberformodulatingv the condition of said motor chamber-#and the position of said controlling means'at` either the maximum orfthe minimum condition'ovffsaid motor chamber 'to automatically predetermine the temperature being maintained thereby, and a second means subjected to the-.heat off-the f at eitherl a predetermined'maximum or a predetermined minimum temperature` comprising 'a heat exchanger for supplyingheat to themeclium,

amiss spending to the maintenance of maximum or 'minimum temperatures, -v means `vsubjected to the heat'of the medium flowing from Ysaid'heat exchanger` forl additionally-injecting Vor Withdrawing1 vaporizable liquid-l into or from said motor chamber `for modulating the condition of said motor chamber and the position of said controlling means at either the maximum or the miniv""'mu-m condition of "said Vmotor chamber to automatically predetermine the ytemperature being maintained thereby, a second meanssubjected lto *the :heat of the medium` approaching said` heat exchanger for additionally injecting or withdrawing vaporizable rliquid Minto or from said motor --chamber for predeterminingthe increment o/ temperature of saidqxnedium leaving said heat 'exchanger over the temperature of said medium approaching' said heatexchanger, and manually adjustable means for varying the minimum` and maximunr temperatures to be' maintained. 61. A device for automatically maintaining the f temperature l.of lmedium deliveredto an enclosure ateither a predetermined maximum oria predetermined minimum temperature. comprising a heat exchange'rfor supplying heat to` thefmedium,

` --vveontrolling means for said heat exchangenan exfpansible'and contractiblemotor chamber operatively'connectedto said 4controlling means and 1 subjected to heat at said'exchanger for vaporiz- 'ing a vaporizable liquid,.a `bulb forv containing vaporizable liquidv in .communication with said 'motorfchamben a heating coil associated v'with -Y said bulb, means -under the: control of'thei'temcontrolling means for 'said heat exchanger, an

and subjected to heat rat- -said exchanger-1 for vaporizing a vaporizable liquid, means under the control of the temperature in said enclosure and f operative only to inject into 'or withdrawfrom said motor` chamber a predetermined quantity of vaporizable liquid to automatically'determirie whether said motor chamber-shall be in'ionly the one-or the'other `of its two-conditionskcorresponding to the maintenance of maximum or minimum temperatures, means subjected to `the heat of the medium flowing from said heat 'ex:

changer for additionally injecting or withdrawing vaporizable liquid into or from said motor chamber for modulating the condition of said motor chamber and the position of said controlling means at either the maximum or the minimum condition of said motor chamber to automatically predetermine the temperature being maintained thereby, and manually adjustable means for varying the minimum and maximum temperatures to be maintained.

5. A device forautomatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum or a predetermined minimumv temperature comprising a heat exchanger for supplying heat to the medium, controlling means for said heat exchanger, an expansible and contractible motor chamber operatively connected to said controlling means and .subjected to heat at said exchanger for vaporizing a vaporizable liquid, means under the control of the temperature in said enclosure and operative only to inject into or withdraw from said motor chamber a predetermined quantity of vaporizable liquid to automatically determine whether said motor chamber shall be in only the one or the other of its two conditions corre- 'expansible and contractible. motor'lricharnber operatively connected to saidcontrolling means perature insaid-'enclosureior opening orclosing the circuit thronghesaidllheating"coil,` said bulb withitsheating coilfbeing operative only to in- 'jecta predeterminedlquantity of vvaporizable liquid into Vsaid motor chamber or Withdraw. the

' A'Isame-1the'refron'i to'A automatically determine whether's'aid motor chamber shall be in only the one 'or-the other of its two conditions correspondmg'tolthe maintenance of-maxi'mum or minimum temperatures, and a second bulb subjected to the Yheat of the medium'ilowing from the heat ex- A'changer' for containing vaporizable liquid and operativefto additionally inject or withdraw vavv'-porizable liquid into or vfrom said motor chamber formodulating the condition of said motor chamberv and the position of said 'controlling' means at either the maximum or the minimum condi- -titonso said motor chamber to automatically predetermine the temperature being maintained thereby.

7. A device for automatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum ,or a predetermined minimum temperature comprising a heat exchanger for supplying heat t0 the medium, controlling means for said heat exchanger, an expansible and contractible motor chamber operatively connected to said controlling means and subjected to heat at said exchanger for vaporizing a vaporizable liquid, a bulb for containing vaporizable liquid in communication with said motor chamber, a heating coil associated with said bulb, means under the control of the temperature in said enclosure for opening or closing the circuit through said heating coil, said bulb with its heating coil being operative only to inject a predetermined quantity of vaporizable liquid into said motor chamber or withdraw the same therefrom to automatically determine Whether said motor chamber shall be in only the one or the other of its two conditions corresponding to the maintenance of maximum or to the heat of the lmedium flowing from the heat Y exchanger for containing vaporizable liquid and operative to additionally inject or withdraw vaporizable liquid into or from said motor chamber for modulating the condition of said motor cham;- ber and the position of said controlling means at either the maximum or the minimum conditions of said motor chamber to automatically predetermine the temperature being maintained thereby, and a third bulb subjected'to the heat of the medium approaching said heat exchanger for containing vaporizable liquid and operative to additionally inject or withdrawyaporizableliquid into orV from said motor chamber to modify the increment of temperature in the medium Yowng from said heat exchanger over the temperature ofthe medium approaching said heat exchanger.

8. A device for automatically maintaining the temperature of medium delivered to ankvenclosure at either a predetermined maximum .or a predetermined minimum `temperature comprising a heat exchanger for; supplying heat to the medium, controlling means'for said heat exchanger, an -expansible and :contractible motor chamber operatively connected to said controlling means andsubjected `to heatnat said exchanger `for vaporizing a vaporizable liquid. a'.bulb forcontaining `vaporizable liquid in communication with said motor chamber, a heating coil associated with said bulb, means -underrV the control of thetemperature'in said enclosure for 1 opening orclosing the circuit through said heatingcoil, said. `bulb with its .heating Icoil being operative only.- totinject a,.predetermined -quan- Atityof vaporizable liquid into said motor chaml ber or Withdrawthe same therefrom to automaticallydetermine whether ysaid motorchamber shall be'in only :the one or the other of its-two' conditions corresponding to the maintenance of maximum or minimum temperaturesa second bulb subjected to the heat of themediumvowing from the heat-exchangerffor-contaming vaporizable liquid and operative to additionally inject or Awithdraw vaporizable liquid into or from said motor 'chamber for modulating the condition-of said motorchamber and the position of said controlling means Vat either the maximum or the minimum conditions of said motor chamber to automatically predetermine the temperature being maintained thereby, and manually operable means for modifying the amount of vaporizable liquid responsive to said changes of temperature and thereby varying the minimum and maximum temperatures maintained by said last named means. 1 f 5 9. A device for automatically maintaining the temperature of medium delivered to an enclosure at either a predetermined maximum or a predetermined minimum temperature comprising a heat exchanger for supplying heat to the medium, controllingmeans for -sad heat exchanger, an

expansible and contractible motor chamber operatively connected to said controlling means and subjected to heat at said exchanger for vaporizing a vaporizable liquid, a bulb for containing l5 vaporizable liquid incommunication with said motor chamber, a heating coil associated with .t said bulb, -means under the control of the temperature in said enclosure for opening or closing the circuit through said heating coil, said bulb with its heating coil being operative only to inject a predetermined quantity of vaporizableliqud into said motor chamber or withdraw the same therefrom to automatically determine Whether said motor -chamber shall be in only the one or the other of its two conditions correspending to the maintenance of maximum or minimum temperatures, a second bulb subjected .to the heat of the medium owing from the heat exchanger for containing 'vaporizable liquid and operative` to additionally inject or withdraw vaporizable liquid into or from said motor chamber for modulating the lcondition of said motor chamber and the position of said controlling means at either the maximum or the minimum conditions of said motor chamber to automatically predetermine the temperature being Vmaintained thereby. a third bulb subjected to the heat of the medium approaching said heat exchanger for containing vaporizable liquid and 'operative to additionally inject or withdraw vaporizable liquid into or from said motor chamber to modify the increment of temperature in the medium owing from said heat exchanger over the temperature of the medium approaching said heat exchanger, and manually operable means for modifying the amount of vaporizable liquid responsive to said changes of temperature and thereby varying the minimum and maximum temperatures vmaintained by said last named means.

NORMAN W. BARNES. 

